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	Engineering covalent organic framework membranes for efficient ionic/molecular separations Review article 2024 Authors: Zhang, Yanqiu; Wang, Hao; Wang, Wenguang; Zhou, Zhiwei; Huang, Junhui; et al. Favorite \| TC[WOS]:28 TC[Scopus]:31 IF:17.3/18.9 \| Submit date：2024/05/16
	Structural basis for receptor binding and broader interspecies receptor recognition of currently circulating Omicron sub-variants Journal article Zhao,Zhennan, Xie,Yufeng, Bai,Bin, Luo,Chunliang, Zhou,Jingya, Li,Weiwei, Meng,Yumin, Li,Linjie, Li,Dedong, Li,Xiaomei, Li,Xiaoxiong, Wang,Xiaoyun, Sun,Junqing, Xu,Zepeng, Sun,Yeping, Zhang,Wei, Fan,Zheng, Zhao,Xin, Wu,Linhuan, Ma,Juncai, Li,Odel Y., Shang,Guijun, Chai,Yan, Liu,Kefang, Wang,Peiyi, Gao,George F., Qi,Jianxun. Structural basis for receptor binding and broader interspecies receptor recognition of currently circulating Omicron sub-variants[J]. Nature Communications, 2023, 14(1), 4405. Authors: Zhao,Zhennan; Xie,Yufeng; Bai,Bin; Luo,Chunliang; Zhou,Jingya; et al. Favorite \| TC[WOS]:15 TC[Scopus]:16 IF:14.7/16.1 \| Submit date：2023/08/03
	A 90- to 115-GHz superheterodyne receiver front-end for W-band imaging system in 28-nm complementary metal-oxide-semiconductor Journal article Wang, Xi, Wei, Dong, Zhang, Zhiyang, Wu, Tianxiang, Chen, Xu, Chen, Yong, Ren, Junyan, Ma, Shunli. A 90- to 115-GHz superheterodyne receiver front-end for W-band imaging system in 28-nm complementary metal-oxide-semiconductor[J]. International Journal of Circuit Theory and Applications, 2023, 51(4), 1530-1547. Authors: Wang, Xi; Wei, Dong; Zhang, Zhiyang; Wu, Tianxiang; Chen, Xu; et al. Favorite \| TC[WOS]:1 TC[Scopus]:1 IF:1.8/1.7 \| Submit date：2023/01/30 Imaging System Low-noise Amplifier (Lna) Peak-staggered Matching Technique Superheterodyne Receiver (Rx) Symmetrical-layout Mixer Transistor-layout Optimization W-band Wideband
	A 4.5-W, 18.5–24.5-GHz GaN Power Amplifier Employing Chebyshev Matching Technique Journal article Yujia, Wang, Jincheng, Zhang, Yong, Chen, Junyan, Ren, Shunli, Ma. A 4.5-W, 18.5–24.5-GHz GaN Power Amplifier Employing Chebyshev Matching Technique[J]. IEEE Transactions on Very Large Scale Integration (VLSI) Systems, 2023, 31(2), 233-242. Authors: Yujia, Wang; Jincheng, Zhang; Yong, Chen; Junyan, Ren; Shunli, Ma Favorite \| TC[WOS]:2 TC[Scopus]:5 IF:2.8/2.8 \| Submit date：2023/01/30 Chebyshev Matching Technique Gallium Nitride (Gan) Power Added Efficiency (Pae) Power Amplifier (Pa) Satellite Communication Wideband Matching Network
	A 124-to-152-GHz Power Amplifier Exploiting Chebyshev-Type Two-Section Wideband and Low-Loss Power-Combining Technique in 28-nm CMOS Journal article Zhang, Jincheng, Wang, Yujia, Chen, Yong, Ren, Junyan, Ma, Shunli. A 124-to-152-GHz Power Amplifier Exploiting Chebyshev-Type Two-Section Wideband and Low-Loss Power-Combining Technique in 28-nm CMOS[J]. IEEE Transactions on Microwave Theory and Techniques, 2022, 71(5), 1852-1865. Authors: Zhang, Jincheng; Wang, Yujia; Chen, Yong; Ren, Junyan; Ma, Shunli Favorite \| TC[WOS]:10 TC[Scopus]:10 IF:4.1/4.2 \| Submit date：2023/06/05 Chebyshev Cmos Coupled Resonator D-band Power Amplifier (Pa) Slow Wave Coplanar Waveguide (S-cpw) Transformer Two-section Wideband Power Combining
	A 124-152 GHz > 15-dBm Psat28-nm CMOS PA Using Chebyshev Artificial-Transmission-Line-Based Matching for Wideband Power Splitting and Combining Conference paper Jincheng Zhang, Tianxiang Wu, Yong Chen, Junyan Ren, Shunli Ma. A 124-152 GHz > 15-dBm Psat28-nm CMOS PA Using Chebyshev Artificial-Transmission-Line-Based Matching for Wideband Power Splitting and Combining[C], 2022, 187-190. Authors: Jincheng Zhang; Tianxiang Wu; Yong Chen; Junyan Ren; Shunli Ma Favorite \| TC[WOS]:2 TC[Scopus]:5 \| Submit date：2023/01/30 Cmos d Band Power Amplifier (p a) Power Combining Wideband
	A 12-Bit 50 MS/s Split-CDAC-Based SAR ADC Integrating Input Programmable Gain Amplifier and Reference Voltage Buffer Journal article Xu, Zhuofan, Hu, Biao, Wu, Tianxiang, Yao, Yuting, Chen, Yong, Ren, Junyan, Ma, Shunli. A 12-Bit 50 MS/s Split-CDAC-Based SAR ADC Integrating Input Programmable Gain Amplifier and Reference Voltage Buffer[J]. Electronics (Switzerland), 2022, 11(12). Authors: Xu, Zhuofan; Hu, Biao; Wu, Tianxiang; Yao, Yuting; Chen, Yong; et al. Favorite \| TC[WOS]:7 TC[Scopus]:10 IF:2.6/2.6 \| Submit date：2022/08/02 Split Cdac Asynchronous Sar Adc Input Pga Rv-buffer
	In Vitro & In Vivo studies on Identifying and Designing Temporin-1CEh from the Skin Secretion of Rana chensinensis as the Optimized Antibacterial Prototype Drug Journal article Ye, Z., Zhou , Z., Xi, X., Zai , Y., Zhou, M., Chen , X., Ma, C., Chen, T., Wang , L., Kwok, H. F.. In Vitro & In Vivo studies on Identifying and Designing Temporin-1CEh from the Skin Secretion of Rana chensinensis as the Optimized Antibacterial Prototype Drug[J]. Pharmaceutics, 2022, 604---. Authors: Ye, Z.; Zhou , Z.; Xi, X.; Zai , Y.; Zhou, M.; et al. Favorite \| TC[WOS]:4 TC[Scopus]:5 IF:4.9/5.5 \| Submit date：2022/06/14 Antimicrobial Activity Temporin Branched Peptide Galleria Mellonella Larva Model
	A 50-Gb/s PAM-4 Silicon-Photonic Transmitter Incorporating Lumped-Segment MZM, Distributed CMOS Driver, and Integrated CDR Journal article Liao, Qiwen, Zhang, Yuguang, Ma, Siyuan, Wang, Lei, Li, Leliang, Li, Guike, Zhang, Zhao, Liu, Jian, Wu, Nanjian, Liu, Liyuan, Chen, Yong, Xiao, Xi, Qi, Nan. A 50-Gb/s PAM-4 Silicon-Photonic Transmitter Incorporating Lumped-Segment MZM, Distributed CMOS Driver, and Integrated CDR[J]. IEEE Journal of Solid-State Circuits, 2022, 57(3), 767-780. Authors: Liao, Qiwen; Zhang, Yuguang; Ma, Siyuan; Wang, Lei; Li, Leliang; et al. Favorite \| TC[WOS]:23 TC[Scopus]:29 IF:4.6/5.6 \| Submit date：2022/03/28 Clock And Data Recovery (Cdr) Cmos Distributed Driver Four-level Pulse Amplitude (Pam-4) Machâ Zehnder Modulator (Mzm) Optical Digital-to-analog Converter (Dac) Silicon Photonic (Siph) Transmitter (Tx)
	A 23- to 28-GHz 5-bit switch-type phase shifter with 1-bit calibration based on optimized ABCD matrix design methods for 5G MIMO system in 0.15-μm GaAs Journal article Zhang, Zhiyang, Nie, Lihe, Zhang, Jincheng, Wu, Tianxiang, Chen, Yong, Ren, Junyan, Ma, Shunli. A 23- to 28-GHz 5-bit switch-type phase shifter with 1-bit calibration based on optimized ABCD matrix design methods for 5G MIMO system in 0.15-μm GaAs[J]. International Journal of Circuit Theory and Applications, 2022, 50(6), 1834-1854. Authors: Zhang, Zhiyang; Nie, Lihe; Zhang, Jincheng; Wu, Tianxiang; Chen, Yong; et al. Favorite \| TC[WOS]:5 TC[Scopus]:6 IF:1.8/1.7 \| Submit date：2022/05/17 Fifth-generation Impedance Matching Phase Shifter Phased-array System Switch-type

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